The bromination of acetone that occurs in acid solution is represented by this equation. CH_(3)COCH_(3)Br(aq)+Br_(2)(aq) to CH_(3)COCH_(2)Br(aq)+H^(+)(aq)+Br^(-)(aq) These kinetic data were obtained for given reaction concentrations. Initial concentrations, M {:([CH_(3)COCH_(3)],[Br_(2)],[H^(+)],"Initial rate, disap"),(,,,"pearance of " Br_(2)),(0.30,0.05,0.05,5.7xx10^(-5)),(0.30,0.10,0.05,5.7xx10^(-5)),(0.30,0.10,0.10,1.2xx10^(-4)),(0.40,0.05,0.20,3.1xx10^(-4)):} Based on these data, the rate equation is

The bromination of acetone that occurs in acid solution is represented

1.	The bromination of acetone that occurs in acid solution is represented by this equation. CH_(3)COCH_(3)Br(aq)+Br_(2)(aq) to CH_(3)COCH_(2)Br(aq)+H^(+)(aq)+Br^(-)(aq) These kinetic data were obtained for given reaction concentrations. Initial concentrations, M {:([CH_(3)COCH_(3)],[Br_(2)],[H^(+)],"Initial rate, disap"),(,,,"pearance of " Br_(2)),(0.30,0.05,0.05,5.7xx10^(-5)),(0.30,0.10,0.05,5.7xx10^(-5)),(0.30,0.10,0.10,1.2xx10^(-4)),(0.40,0.05,0.20,3.1xx10^(-4)):} Based on these data, the rate equation is
Answer» `"RATE"=k[CH_(3)COCH_(3)][Br_(2)]` `"rate"=k[CH_(3)COCH_(3)][Br_(2)][H^(-)]^(2)` `"rate"=k[CH_(3)COCH_(3)][Br_(2)][H^(-)]` `"rate"=k[CH_(3)COCH_(3)][H^(+)]` Answer :D